Re: [RFC Proposal] Deterministic memcg charging for shared memory

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On Wed 13-10-21 12:23:19, Mina Almasry wrote:
> Below is a proposal for deterministic charging of shared memory.
> Please take a look and let me know if there are any major concerns:
> 
> Problem:
> Currently shared memory is charged to the memcg of the allocating
> process. This makes memory usage of processes accessing shared memory
> a bit unpredictable since whichever process accesses the memory first
> will get charged. We have a number of use cases where our userspace
> would like deterministic charging of shared memory:
> 
> 1. System services allocating memory for client jobs:
> We have services (namely a network access service[1]) that provide
> functionality for clients running on the machine and allocate memory
> to carry out these services. The memory usage of these services
> depends on the number of jobs running on the machine and the nature of
> the requests made to the service, which makes the memory usage of
> these services hard to predict and thus hard to limit via memory.max.
> These system services would like a way to allocate memory and instruct
> the kernel to charge this memory to the client’s memcg.
> 
> 2. Shared filesystem between subtasks of a large job
> Our infrastructure has large meta jobs such as kubernetes which spawn
> multiple subtasks which share a tmpfs mount. These jobs and its
> subtasks use that tmpfs mount for various purposes such as data
> sharing or persistent data between the subtask restarts. In kubernetes
> terminology, the meta job is similar to pods and subtasks are
> containers under pods. We want the shared memory to be
> deterministically charged to the kubernetes's pod and independent to
> the lifetime of containers under the pod.
> 
> 3. Shared libraries and language runtimes shared between independent jobs.
> We’d like to optimize memory usage on the machine by sharing libraries
> and language runtimes of many of the processes running on our machines
> in separate memcgs. This produces a side effect that one job may be
> unlucky to be the first to access many of the libraries and may get
> oom killed as all the cached files get charged to it.
> 
> Design:
> My rough proposal to solve this problem is to simply add a
> ‘memcg=/path/to/memcg’ mount option for filesystems (namely tmpfs):
> directing all the memory of the file system to be ‘remote charged’ to
> cgroup provided by that memcg= option.

Could you be more specific about how this matches the above mentioned
usecases?

What would/should happen if the target memcg doesn't or stop existing
under remote charger feet?

> Caveats:
> 1. One complication to address is the behavior when the target memcg
> hits its memory.max limit because of remote charging. In this case the
> oom-killer will be invoked, but the oom-killer may not find anything
> to kill in the target memcg being charged. In this case, I propose
> simply failing the remote charge which will cause the process
> executing the remote charge to get an ENOMEM This will be documented
> behavior of remote charging.

Say you are in a page fault (#PF) path. If you just return ENOMEM then
you will get a system wide OOM killer via pagefault_out_of_memory. This
is very likely not something you want, right? Even if we remove this
behavior, which is another story, then the #PF wouldn't have other ways
than keep retrying which doesn't really look great either.

The only "reasonable" way I can see right now is kill the remote
charging task. That might result in some other problems though.

> 2. I would like to provide an initial implementation that adds this
> support for tmpfs, while leaving the implementation generic enough for
> myself or others to extend to more filesystems where they find the
> feature useful.

How do you envision other filesystems would implement that? Should the
information be persisted in some way?

I didn't have time to give this a lot of thought and more questions will
likely come. My initial reaction is that this will open a lot of
interesting corner cases which will be hard to deal with.
-- 
Michal Hocko
SUSE Labs



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